2019_programme: SCATTERING FROM MULTIPLE ELASTIC TARGETS USING THE COUPLED FINITE ELEMENT/BOUNDARY ELEMENT METHOD
- Session: 21. Target Echo Strength-Measurements and Modelling
Organiser(s): Williams Duncan, Nunn David, Nijhof Marten
- Lecture: SCATTERING FROM MULTIPLE ELASTIC TARGETS USING THE COUPLED FINITE ELEMENT/BOUNDARY ELEMENT METHOD [invited]
Paper ID: 1005
Author(s): Abawi Ahmad, Krysl Petr
Presenter: Abawi Ahmad
Presentation type: oral
Abstract: The fluid-structure interaction technique provides a paradigm for solving scattering from elastic targets embedded in a fluid by a combination of finite and boundary element methods. In this technique, the finite element method is used to compute the target’s elastic response and the boundary element method with the appropriate Green’s function is used to compute the field in the exterior medium. The two methods are coupled at the surface of the target by imposing the continuity of pressure and normal displacement. This results in a self-consistent boundary element method that can be used to compute the scattered field anywhere in the surrounding environment. The method reduces a finite element problem to a boundary element one with drastic reduction in the number of unknowns, which translates to a significant reduction in numerical cost. In this talk, the method is extended to compute scattering from multiple targets by self-consistently accounting for all interactions between them. The model allows to identify block matrices responsible for the interaction between targets, which proves useful in many applications. The model is tested by comparing its results with measurements.
- Corresponding author: Dr Abawi Ahmad
Affiliation: HLS Research
Country: United States
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